FR2678925A1 - COATING FOR CONVEYOR ROLLERS. - Google Patents

Abstract

The invention relates to a tubular coating for conveyor rollers of glass sheets brought to their softening temperature in a bending and / or heat treatment furnace which has the particularity of having an outer surface, that in contact with the sheets of glass. glass, based on metal wires. It is preferably used to equip the rollers present in the front and / or lateral repositioning zones of the glass sheets on the conveyor.

Description

The invention relates to the invention of the invention.

  techniques for bending and / or heat treatment of glass sheets It relates to a coating for equipping conveyor rolls 15 carrying the glass sheets through a horizontal furnace intended to make them acquire the temperature necessary for their bending and / or subsequent heat treatment. It relates more particularly to the use of coatings for the rollers located in the repositioning zones of the sheets with respect to their axis of travel. Indeed, to produce curved glass sheets having good curvature conformance and satisfactory optical quality, it is particularly important that the glass sheet is properly positioned before being supported by the bending tools and / or heat treatment. Therefore, the orientation of the glass sheet inside the furnace in the plane of the rollers of the conveyor is usually carried out, frontally, that is to say, by acting on the edge. before "of the sheet relative to its axis of movement, and / or laterally, that is to say by intervening on one or the other of the edges substantially parallel to said axis Plus35 this readjustment is carried out near the end of the oven, the more it is effective because it reduces all the risk of seeing the leaves disorient again before being taken care of at the exit of the oven By cons, such a readjustment "late" substantially increases the risks ues

  marking the leaves then very close to their temperature.

  Final softening zone, since it involves both direct contact between repositioning members and one or more edges of the sheets and friction between the lower surface of the sheets and the conveyor rolls.

  We can distinguish two types of repositioning organs: the organs of the "static" type and those

  of the "dynamic" type .10 First of all, it is known in particular from EP-A-

  389 317 a device that could be described as "static", comprising end stops, for example two in number, and interposed on the path of the glass sheets in the oven, which successively struck by the front edge of each of them, retract as soon as the double contact between the sheet and the two stops is detected Thus, the repositioning time is reduced to the time just necessary, in order to limit the friction time between the glass and the rolls. However, by stopping the sheet, this type of static device induces nevertheless friction which, if acceptable to the middle

  The furnace, either at a glass temperature of less than 500 or even 5501 ° C, would give marks on the lower surface of the sheets beyond that. Therefore, another type of repositioning device was proposed. we can qualify

  proud, as opposed to the previous one, of "dynamic", insofar as they are animated by a movement and accompany each sheet for a certain distance while reorienting it. mention may be made of the front-centering device of the EP-patent. A-389 316 or the census device

  Lateral trimming of EP-A-367 670 This allows both to support high production rates, but also to significantly reduce the intensity of friction glass / rolls, the speed difference when repositioning between sheets and rolls , as

  to them animated with a constant speed of rotation, being much less This is why this type of dynamic device

  that remains of this fact usable even at the end of the oven.

  However, if it is efficient, it also reveals itself

  is expensive and complex to implement, if only because it requires a detection of the sheets upstream thereof, a good synchronization between the movement of the successive sheets and that of the repositioning members, and a systematic adjustment between each series of production of curved glass sheets Its use also implies the obligation to reserve in the oven an area allowing the movement of this type of movable member, and to practice in it unfavorable openings the temperature regulation of the oven enclosure. The object of the invention is then to seek how it would be possible to use repositioning devices of the static type, much simpler to implement than those of the dynamic type, throughout the oven, and yet without causing marking on glass sheets altering their optical quality. The authors of the invention have clearly found that any frontal repositioning stops, or at least inhibits in its momentum, the sheet of glass, while the rollers

  continue to rotate uniformly while any lateral repositioning makes it at least skid on the rollers with respect to its axis of scroll All25 these rubs are all the more intensive, as mentioned previously, that one is dealing with provisions

  static and close to the exit of the oven. Until now, a common way to minimize these friction was to dress the rollers located in the repositioning area of sheaths of braided silica son However, their use does not give full satisfaction on several points First, these son of Silica oxidize fairly quickly at high temperature, even if arranged at the beginning or middle of the furnace. In addition, these sheaths have a poor mechanical strength, which frequently causes local fractures of a few threads that propagate very rapidly over the entire length of the tube. the sheath, leaving the sheet of glass to rest locally on a bare roller These two weaknesses make it necessary to replace the

  sheaths very frequently, especially as their woven texture, which is similar to a fabric, offers a smooth surface of course but with a "soft" 5 in its rather limited thickness The contact glass / silica is therefore not not optimally.

  The authors of the invention have proposed another type of roll coating, which makes it possible to reduce sufficiently

  The intensity of the glass / roll friction, particularly in the repositioning zones using static type devices, to be able to use these at the end of the furnace, overcomes the disadvantages of the silica coating mentioned above. . This is a tubular coating for rolls of

  conveyor of glass sheets brought to their softening temperature in a bending and / or treatment furnace

  Thermal insulation which has the particularity of having an outer surface, that in contact with the glass sheets, based on metal son It can also for example be formed from metal son over its entire thickness, and in particular be entirely metal-

  lic. It will preferably be used in the context of the invention to equip the rollers present in the front and / or side repositioning zones of the glass sheets in the plane of the conveyor relative to their axis of travel. The invention also relates to the combination of a set of conveyor rollers in the oven equipped with a

  such coating, and repositioning organs.

  The contact between glass and metal induces a significantly lower coefficient of friction than

  contact glass / silica, which causes a significant reduction in the risk of marking the lower surfaces of the leaves during their repositioning.

  It is preferable to choose a coating based on metal wires, such as stainless steel, nickel-chromium alloy or iron-chromium-nickel, which coating then has a high temperature withstand and a mechanical resistance that is far beyond those of a

  Silica Coating There is no abrupt wire breakage phenomenon, so wear is very slow and much more gradual, allowing coating changes at a much lower rate.

  The texture of the metal coating is either braided or knitted. However, knitting is preferred, which, by its softness and softness, promotes a soft contact with the glass, which contributes to reducing any risk of marking. extensibility of said tubular knit, especially along the axes perpendicular to the axis of the cylinder that constitutes the coating, allows it to adapt to different roll diameters. The characteristics and advantages of the invention

  will appear in the following detailed description of non-limiting examples.

  It will be recalled that in order to characterize a wire that can be braided or knitted, the metric number, which indicates the number of linear meters obtained for one gram of material, is used. In the context of the invention, the metric number of the yarns used is is preferably between 5 and 50. A tubular coating, in the case of a knit, is manufactured on a cylindrical loom, having a number of needles per inch: it is the gauge, which makes it possible to evaluate the knit size obtained here It is preferably between 12 and 20 The knit has the relatively extensible meshes, of the type picked especially. The metal threads advantageously consist of twisted fibers, themselves composed of filaments.

  units of average diameter between 7 and 12 microns. These wires are in particular alloy essentially based on nickel and chromium, such as alloy 316 L AISI standard, or iron-chromium-nickel alloy, such as stainless steel Inconel 601 according to ASTM standard The latter, which pre-

  In the case where the repositioning zone of the glass sheets is at the end of the oven, the temperature of the sheets exceeds 6500.degree.

  The thickness of the coating according to the invention is preferably from 1 to 2 mm.

  Examples of tubular metal knit coatings particularly suitable for the application contemplated within the scope of the invention are sold by Bekaert under the name Bekitherm KN / T 2/316 L, made from an alloy 316 L, as well as, for its counterpart from Inconel 601, under the name Bekitherm KN / T 2 / INC 601 They both have a nominal thickness of 1.5 mm and a linear weight of yarn, expressed in grams The internal diameters, when not energized, are 40 and 50 mm respectively. They can be used for conveyor rolls with diameters of 40 to 80 mm and 50 to 40 mm respectively. mm. All these metal coatings therefore equip the number of rollers sufficient to ensure contact with

  the surface of the sheet of glass throughout its repositioning They allow to reduce considerably

  Any risk of marking due to the inevitable rubbing glass / rolls that implies a repositioning of sheet, if any improved They are also very strong.25 Their presence is particularly advantageous when using repositioning organs of the type static, that is to say those that are most likely to generate marks on the glass sheets, because it allows to use them even at the end of the oven through the reduction of the friction intensity provided by a metal surface, which was not possible

  Until then, we can avoid resorting to more complex "dynamic" devices, when they are not essential.

  But it goes without saying that we can advantageously use this coating a fortiori in the case of devices

  dynamic repositioning. We will refer to the three previous patents

  cited for more precision on each of these 7 devices, but it is clear that the coating according to

  the invention is indicated for any repositioning zone in the oven, regardless of the repositioning member, and in general for any area where contact marking with the rollers is to be feared.

  With the quality of contact with the glass and the marrow provided by such a coating with an outer surface in

  metal son, it can equip the rollers arranged at any transport area of the sheets10 in the oven.

  In addition, its very high strength makes it useful for coating rolls in the areas most sensitive to wear, for example at the top of the furnace where the glass volumes begin, under the action of heating, to deform. slightly, taking in particular a form in "boat" whose edges solicit hard coating of the rollers

at this location.

Claims (4)

CLAIMS Tubular coating for conveyor rollers on which the sheets of glass are passed in a bending and / or heat treatment furnace intended to bring them to their softening temperature, characterized in that its outer surface in contact with said sheets is based on metal wires.   2 coating according to claim 1, characterized in that it consists of metal son.   Coating according to claim 1 or 2, characterized in that it consists of metal alloy wires.   that, such as stainless steel, nickel-chromium or iron-chromium-nickel alloys. Coating according to claim 3, characterized in   what threads are knitted or braided.   Coating according to claim 3 or 4, characterized in that the yarns consist of twisted fibers, themselves made from filaments with a mean diameter of between 7 and 12 microns. 6. The coating according to claim 3, 5, characterized in that it consists of a knitted knit   plies of extensible character and having a gauge of between 12 and 20. 7 Coating according to one of the preceding claims.   dentes, characterized in that its thickness is between 1 and 2 mm.   8 Coating according to one of the preceding claims, characterized in that it equips the rollers located   in the areas of frontal and / or lateral repositioning of the glass sheets in the plane of the conveyor relative to to their scroll axis.   A set of conveyor rollers on which the glass sheets run in a bending and / or heat treatment furnace to bring them to their softening temperature, said rollers being   equipped with tubular coatings according to one of the preceding claims and associated with   repositioning of the glass sheets 1 10 Use of the coating conforming to one of the   Claims 1 to 8 for covering rolls of   voyeur in a bending and / or heat treatment furnace of glass sheets, and more particularly the rollers located in the repositioning zones thereof in the plane of the conveyor relative to their axis of travel.